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Post-irradiation annealing behavior of helium in irradiated Fe and ferritic-martensitic steels
Oxide dispersion strengthened (ODS) alloys, which contain a high number density of nano-scale oxide particles, are supposed to prevent the long-range diffusion of defects therefore enhance irradiation resistance. The large amount of interfaces between oxide particles and matrix are expected to trap helium atoms as well as vacancies and interstitial atoms. In this study, Fe, F82H-IEA steel and F82H-ODS steel were irradiated with He+ ions at room temperature. Post-irradiation annealing was carried out over a temperature range 200–600 °C with the increment of 100 °C. The change of indentation hardness and the evolution of cavities during post-irradiation annealing were investigated using nanoindentation and transmission electron microscopy (TEM). After post-irradiation annealing at 300 °C, Fe with 2000 appm He showed additional hardening, while at temperature above 500 °C, it showed a large stage of hardness recovery. On the contrary, no temperature dependence of hardness was observed in F82H-IEA steel or F82H-ODS steel during the post-irradiation annealing process. Therefore, the large stage of hardness recovery is expected to be above 600 °C for the latter materials. The reason for the additional hardening in Fe at 300 °C was speculated to be re-structure of the irradiation induced defects. TEM observations revealed the homogeneous distribution of cavities in all as-irradiated materials, and the increase in cavity size and the decrease in cavity number density after post-irradiation annealing at 650 °C. The mechanism of the formation of radiation damage and its development with post-irradiation annealing were discussed. Keywords: Oxide dispersion strengthened alloy, Helium irradiation, Cavity, Irradiation hardening, Post-irradiation annealing
Post-irradiation annealing behavior of helium in irradiated Fe and ferritic-martensitic steels
Oxide dispersion strengthened (ODS) alloys, which contain a high number density of nano-scale oxide particles, are supposed to prevent the long-range diffusion of defects therefore enhance irradiation resistance. The large amount of interfaces between oxide particles and matrix are expected to trap helium atoms as well as vacancies and interstitial atoms. In this study, Fe, F82H-IEA steel and F82H-ODS steel were irradiated with He+ ions at room temperature. Post-irradiation annealing was carried out over a temperature range 200–600 °C with the increment of 100 °C. The change of indentation hardness and the evolution of cavities during post-irradiation annealing were investigated using nanoindentation and transmission electron microscopy (TEM). After post-irradiation annealing at 300 °C, Fe with 2000 appm He showed additional hardening, while at temperature above 500 °C, it showed a large stage of hardness recovery. On the contrary, no temperature dependence of hardness was observed in F82H-IEA steel or F82H-ODS steel during the post-irradiation annealing process. Therefore, the large stage of hardness recovery is expected to be above 600 °C for the latter materials. The reason for the additional hardening in Fe at 300 °C was speculated to be re-structure of the irradiation induced defects. TEM observations revealed the homogeneous distribution of cavities in all as-irradiated materials, and the increase in cavity size and the decrease in cavity number density after post-irradiation annealing at 650 °C. The mechanism of the formation of radiation damage and its development with post-irradiation annealing were discussed. Keywords: Oxide dispersion strengthened alloy, Helium irradiation, Cavity, Irradiation hardening, Post-irradiation annealing
Post-irradiation annealing behavior of helium in irradiated Fe and ferritic-martensitic steels
S. Chen (Autor:in) / Y. Wang (Autor:in) / N. Hashimoto (Autor:in) / S. Ohnuki (Autor:in)
2018
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
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